PILUIL is building the next horizon for matter, energy, and scientific computing.
A sovereign research constellation inspired by CERN: bold experimentation, open science, and precision infrastructure to answer the deepest questions of physics and climate resilience.
High-Energy Frontiers
Particle acceleration, collision analytics, and detector systems that reveal new states of matter.
Quantum Infrastructure
Cryogenic testbeds and entanglement networks for resilient quantum sensing and timing.
Planetary Energy Systems
Next-gen fusion materials, superconducting grids, and AI-optimized energy flows.
Facilities designed for scale, precision, and open discovery.
PILUIL operates as an interconnected campus: collider halls, quantum vaults, and real-time simulation suites. Every facility is instrumented for data sovereignty and international access.
Aperture Collider Hall
Beamline integration, shielding, and detector orchestration.
Spectra Computing Core
Exascale simulations with climate and astro-physics workloads.
Open Materials Foundry
Rapid prototyping for alloys, composites, and metamaterials.
Helios Field Campus
Remote sensors for atmospheric, oceanic, and solar arrays.
A clear path from concept to global deployment.
Commissioning of the A-Loop accelerator grid.
First open data release for the Helios climate mesh.
Quantum timing array linked across 28 partner labs.
Fusion materials test campaign with industrial pilots.
Join the PILUIL research constellation.
We publish data, maintain open repositories, and host rotating fellowships for engineers, physicists, and climate researchers.
Open data portal with daily beam metrics
Collaborative grants for cross-lab experiments
Independent oversight with published safety reports
Public lecture series streamed in 12 languages